AU2001251732B2 - Modular beverage dispenser - Google Patents

Abstract

A modular mounting block for a beverage dispenser. The modular mounting block includes a number of pump compartments and a number of dispensing valve compartments formed integrally within the block.

Description

WO 01/72628 PCT/US01/40346 1 MODULAR BEVERAGE DISPENSER Technical Field The present invention relates to a beverage dispenser, and more particularly relates to a beverage dispenser with modular components for simplified and efficient assembly, repair, and replacement.

Background of the Invention Beverage dispensers, such as those used for carbonated soft: drinks and like, are well known in the art. Examples of known beverage dispensers include commonly-owned U.S. Patent No. 4,781,310 and U.S. Patent No.

4,801,048, both entitled "Beverage Dispenser", and commonly-owned U.S. Patent No. 5,190,188, entitled "Convertible Beverage Dispenser." As is shown in these references, most beverage dispensers include a water bath with a refrigeration deck positioned thereon. The refrigeration deck supports the refrigeration equipment, such as a compressor. The compressor generally is connected to a series of evaporation coils positioned within the water bath. The evaporation coils remove heat from the water of the water bath as is known to those skilled in the art so as to provide cooling.

A beverage dispenser also generally includes a series of syrup circuits and water circuits. The syrup circuits generally include an incoming syrup line, a syrup pump, and a series of syrup cooling coils positioned within the water bath. Alternatively, a cold plate system also could be used. The source of the syrup may be a bag-in-box, a figal, a syrup tank, or any other type of conventional syrup source. The water circuits generally include an incoming water line, a water pump, a carbonator, and a series of water cooling coils positioned within the water bath or the cold plate. The source of the water is generally tap water or any other type of conventional water source. The carbonator adds carbon dioxide bubbles to the incoming water stream so as to produce soda water. The syrup circuits and the water circuits are then joined at a dispensing valve for mixing. The syrup and the water are cooled in the respective cooling coils or the cold plate so as to provide the beverage at the appropriate temperature. The beverage is then dispensed through the dispensing valve nozzle.

To construct a beverage dispenser, one generally starts with the water bath. One or more plates are bolted onto the water bath. Mounting blocks for the dispensing valves are then bolted onto the plates. The dispensing valves themselves are then attached by bolts, screws, or other conventional types of fastening means. Several additional brackets are also attached. The water pump and the syrup pumps are then attached to these brackets by bolts, screws, or other conventional types of fastening means. Each of the dispensing valves and the pumps also has various fittings. The dispensing valves and the pumps are then connected by multiple fluid lines. Finally, the electronics and other controls may be installed.

In sum, the construction of a beverage dispenser is a time consuming process because it requires the coordination and cooperation of multiple elements. The installation of each element of the dispenser requires multiple screws, fittings, and fluid lines. Further, because of the large number of elements, repairing or replacing one component is often difficult. Repair or replacement of one component often requires the entire beverage dispenser to be taken out of service.

The above discussion of documents, acts, materials, devices, articles and the like is included in this specification solely for the purpose of providing a context for the present invention. It is not suggested or represented that any of these matters formed part of the prior art base or were common general knowledge in the field relevant to the present invention as it existed in Australia before the priority date of each claim of this application.

What is needed, therefore, is a simplified means for constructing a beverage dispenser.

Such a beverage dispenser should have significantly fewer parts so as to provide for a simplified and efficient construction. Such a beverage dispenser also should permit simplified and efficient replacement of parts. Further, the beverage dispenser itself should be reasonably priced.

Summary of the Invention According to one aspect of the present invention, there is provided a modular beverage dispenser. The modular beverage dispenser includes a water bath with a mounting block fixedly attached thereto. The mounting block includes a number of pump compartments and a number of dispensing valve compartments. A water pump is positioned within a first one of the pump compartments, a syrup pump is positioned within a second one of the pump compartments, and a dispensing valve is positioned within one of the dispensing valve compartments.

Specific embodiments of the invention provide that the first pump compartment may be a water pump compartment and the second pump compartment may be a syrup pump compartment. Any number of water pump compartments and syrup pump compartments may be used. The mounting block and the water bath may be made from a thermoplastic material. The water bath may include a drip path molded therein while the mounting block may include an overflow conduit in alignment with the drip path of the water bath.

W:VnarYkNODELETEUOO1Z251732 1 .doc 3 The water pump may be placed into the first pump compartment and then retained by a snap fit, a screw, a bolt, or other conventional types of fastening means. The syrup pump may be placed into the second pump compartment arid then may be retained by a snap fit, a screw, a bolt, or other conventional types of fastening means. Further, the dispensing valve may be placed into the one of the dispensing valve compartments and then may be retained by a snap fit, a screw, a bolt, or other conventional types of fastening means.

A number of fluid lines may be connected to the water pump, the syrup pump, and the dispensing valve. One or more of these fluid lines may include a quick disconnect fitting. The quick disconnect fitting includes a retractable plunger positioned within a housing. The retractable plunger also includes an arm so as to position the retractable plunger within the housing. In use, the dispensing valve snaps into one of the quick disconnect fittings for connection to one of the fluid lines.

According to another aspect of this invention there is provided a modular beverage dispenser including: a water bath; a mounting block fixedly attached thereto; said mounting block including a single piece thermoplastic; said mounting block further including a plurality of compartments; and a dispensing valve positioned within one of said plurality of compartments.

According to still another aspect of this invention there is provided a method for constructing a beverage dispenser including the steps of: securing a mounting block onto a water bath, said mounting block including a plurality of pump compartments and a plurality of dispensing valve compartments; placing a water pump within a first one of said plurality of pump compartments; placing a syrup pump within a second one of said plurality of pump compartments; and placing a dispensing valve within one of said plurality of dispensing valve compartments.

Brief Description of the Drawings Fig. I is a perspective view of a modular mounting block of the present invention.

Fig. 2 is a side plan view of the modular mounting block of Fig 1.

Fig. 3 is a front plan view of the modular mounting block of Fig. 1.

Fig. 4 is a top plan view of the modular mounting block of Fig. 1.

W:%naryt NODELETEk20012517321.doc WO 01/72628 PCT/US01/40346 4 Fig. 5 is a perspective view of the water bath of the present invention.

Fig. 6 is a top plan view of the water bath of Fig. Fig. 7 is an exploded view of the modular mounting block, one water bath, one dispensing valve, one syrup pump, and the water pump of the present invention.

Fig. 8 is a top plan view of the quick disconnect fitting of the present invention.

Fig. 9 is a side cross-sectional view of the quick disconnect fitting of Fig. 8.

Fig. 10 is cross-sectional view of the frame securing the quick disconnect fitting of Fig. 8.

Fig. 11 is a side cross-sectional view of the water bath, one dispensing valve, the modular mounting block, and the quick disconnect fitting of the present invention.

Fig. 12 is a top plan view of an alternative embodiment of the present invention showing the syrup compartments on one side of the mounting block.

Detailed Description of the Invention Referring now to the drawings, in which like numerals refer to like elements throughout the several views, Figs. 1-4 show one aspect of the present invention, a modular mounting block 100. The modular mounting block 100 preferably is a unitary element. The modular mounting block 100 preferably is molded from a substantially rigid thermoplastic, such as nylon, acetal, or similar types of substantially rigid, non-corrosive materials.

The modular mounting block 100 generally has a plurality of compartments 110 molded therein. These compartments 110 may include a number of pump compartments 120. These pump compartments 120 generally include at least one water pump compartment 130 and a plurality of syrup pump compartments 135. In this embodiment, the modular mounting block 100 has a first syrup pump compartment 140, a second syrup pump compartment 150, a third syrup pump compartment 160, and a fourth syrup pump compartment 170. It is understood that the total number, type, and location of the pump compartments 135 can vary according to the size and utilization of the beverage dispenser as a whole. For example, although the compartments 135 are shown two on a side, WO 01/72628 PCT/US01/40346 the compartments 135 also may be arranged such that all four compartments 135 are on one side, in the middle, or on any location within the mounting block 100.

The modular mounting block 100 can accommodate as many pump compartments 135 as is needed or desired. Further, each syrup pump compartments 135 is sized and shaped according to the appropriate syrup pump to be used therein. In this case, the compartments 135 are largely rectangular in shape. The pump compartments 135 also may include one or more bolt holes 175 or other types of attachment structures. The syrup pumps may be mounted within the compartments 135 via a fastener attached to the bolt hole 175 or by similar attachment means.

The water pump compartment 130 also is sized to accommodate the appropriate water pump within a rest 180. The rest 180 is substantially shaped so as to accommodate a typical water pump. Any desired shape, size, or location, however, may be used. The water pump compartment 130 also includes a divider 185 with an attachment recess 187 positioned therein. The water pump may be mounted within the compartment 130 via a fastener attached to the attachment recess 187 or by similar attachment structures or means. The water pump compartment 130 also includes a recess 190 positioned adjacent to the rest 180. The recess 190 is generally oval in shape and provides access to the pressure relief valve of a typical carbonator unit and also provides an access route for one or more fluid or gas lines.

The modular mounting block 100 also includes an overflow conduit 195. The overflow conduit 195 allows any syrup or other liquids that may spill within the pump compartments 120 to drain out of the modular mounting block 100. The individual pump compartments 120 also may include one or more recesses positioned therein to permit fluid to flow out of the compartments 120 and towards the overflow conduit 195.

The modular mounting block 100 also includes a plurality of dispensing valve compartments 200. In the embodiment shown in Figs. I through 4, the modular mounting block 100 has a first dispensing valve compartment 210, a second dispensing valve compartment 220, a third dispensing valve compartment 230, and a fourth dispensing valve compartment 240. Each dispensing valve compartment 200 has a recess 250 positioned therein so as to accommodate a typical dispensing valve nozzle and an activation lever. Each valve compartment 200 also has a syrup conduit support 260 and a water conduit support 270 formed WO 01/72628 PCT/US01/40346 6 therein. The conduit supports 260, 270 are sized to permit a fluid line and/or a fluid line coupling to be attached to the dispensing valve. As with the syrup pump compartments 135, the number of the valve compartments 200 depends upon the size and utility of the beverage dispenser as a whole. It is understood that any shape, size, or location of the valve compartments 200 may be used. Each dispensing valve compartment 230 also includes one or more attachment recesses 275 formed therein. The dispensing valve may be mounted within the compartment 230 via a fastener such as a wire clip attached to the attachment recess 175 or by similar attachment structures or means.

The modular mounting block 100 also has a number of footings 290 formed thereon. Each footing 290 may have a bolt hole 295 therethrough or similar structures so as to secure the modular mounting block 100 to the water bath by bolts, screws, or other types of conventional fastening means.

Figs. 5 and 6 show a water bath 300 for use with the present invention. The water bath 300 also may be a molded plastic. For example, the water bath 300 may be roto-molded from High Density Polyethylene ("HDPE") or similar types of materials. The water bath 300 is generally formed in place. As is shown, the water bath 300 includes a bath recess 310 formed by a plurality of walls 320. One of the walls 320 may include a drip path 330 molded therein. The drip path 330 extends from the bath recess area 310 along the length of the wall 320.

The drip path 330 aligns with the overflow conduit 195 so as to allow for any excess syrup or other fluids to escape from the modular mounting block 100 without spilling into the water bath 300. Most known beverage dispensers result in the excess syrup leaking into the water bath. The drip path 330, in combination with the overflow conduit 195, avoids this problem.

The water bath 300 may have a plurality of support legs 340. The water bath 300 also may have a plurality of bolt holes 350 or other accommodations on the wall 320 surrounding the recess area 310 so as to attach the modular mounting block 100 as described above. Finally, the water bath 300 may have one or more carbonator guides 355 positioned within the bath recess 320 so as to position the carbonator unit therein.

Fig. 7 shows the modular mounting block 100 positioned on top of the water bath 300 so as to form a beverage dispenser 360. As is shown, the modular mounting block 100 is positioned by the footings 290 on top of the walls 320 of the water bath 300. One or more bolts, screws, or other conventional types of fastening means may secure the modular mounting block 100 in place via the WO 01/72628 PCT/US01/40346 7 bolt holes 295 of the modular mounting block 100 and the bolt holes 350 of the water bath 300. A snap fit, a slide pin, or similar connection devices also may be used. The overflow conduit 195 of the modular mounting block 100 is positioned over the drip path 330 of the water bath 300 for communication therewith.

Also shown in Fig. 7 is a syrup pump 400. The syrup pump 400 may be of conventional design. A preferred syrup pump 400 may be made by Lancer Corporation of San Antonio, Texas, and sold under the mark "Mini-Pump".

One syrup pump 400 may fit within each of the syrup pump compartments 140, 150, 160, 170. After the syrup pumps 400 are positioned within each of the compartments 140, 150, 160, 170, several of the syrup pumps 400 may be secured by a single screw 402. The screw 402 fits within the bolt hole 175 and may anchor two or more pumps 400 per side at a time. Alternatively, the syrup pumps 400 may snap into place within the compartments 140, 150, 160, 170 and be secured via a spring-loaded tab. Further, the syrup pumps 400 may be held by an integral retainer that is molded within the compartments 140, 150, 160, 170 or by a similar type of construction.

The syrup pump 400 generally has a syrup-intake line 410 and a syrup-out line 420. The pump 400 may be gas activated such that there is an incoming gas line or manifold 425. A single manifold 425 may accommodate a number of the syrup pumps 400. The mounting block 100 supports and secures the pumps 400, the lines 410, 420, and the manifold 425. The syrup-intake line 410 is generally connected between the syrup pump 400 and a syrup source such as a bag-in-box, a figal, a syrup tank, or other types of conventional syrup sources. The syrup-out line 420 generally leads to a plurality of syrup cooling coils (not shown) positioned within the water bath 300 of the beverage dispenser 360. The syrup is cooled to the appropriate temperature within the syrup cooling coils in a conventional manner.

Fig. 7 also shows a water pump 430. The water pump 430 may be of conventional design. A preferred water pump 430 may be made by Flojet Corporation of Irvine, California. The water pump 430 is positioned within the rest 180 of the water pump compartment 130. The water pump 430 fits within the compartment 130 and may be secured by a single screw 432 via the attachment recess 187. The pump 430 also may be mounted by screws, bolts, or other conventional types of fastening means. Alternatively, the water pump 430 may snap into place within the compartment 130 and may be secured via a spring- WO 01/72628 PCT/US01/40346 8 loaded tab. Further, the water pump 430 may be held by an integral retainer that is molded within the compartment 130 or by a similar type of construction.

The water pump 430 generally has a water-in line 440 and a waterout line 450. The water-in line 440 generally connects the water pump 430 to a conventional water source. The water-out line 450 generally connects the water pump 430 to a carbonator unit (not shown) or other elements within a conventional water circuit such as the water cooling coils (not shown) positioned within the water bath 300. The water pump 430 may be gas activated such that there is an incoming gas line or manifold 455 connected thereto.

Fig. 7 also shows a dispensing valve 470. The dispensing valve 470 may be of conventional design. A dispensing valve 470 may be made by Lancer Corporation of San Antonio, Texas, and sold under the mark "LMV". The dispensing valve 470 also may be a modular dispensing valve.

The dispensing valve 470 generally includes a dispensing nozzle 480 and an activation lever 490. The dispensing valve 470 also has a syrup-intake port 500 and a water-intake port 510. The syrup-intake port 500 mates with a fitting connected to a syrup-intake line 505 as described in more detail below.

Likewise, the water-intake port 510 mates with a fitting connected to a waterintake line 515. The syrup-intake line 505 connects the dispensing valve 470 with the syrup cooling coils (not shown) positioned within the water bath 300.

Likewise, the water-intake line 515 connects the dispensing valve 470 with the water cooling coils (not shown) positioned within the water bath 300. The syrup from the syrup-intake line 505 and the water from the water-intake line 515 are mixed within the dispensing valve 470 such that a beverage, such as carbonated soft drink, comes out of the nozzle 480 when the activation lever 490 is moved.

The dispensing valve 470 is positioned within each of the dispensing valve compartments 200. The nozzle 480 of the dispensing valve 470 is positioned within the recess 250 of each compartment 200. The dispensing valve 470 may have an a clip recess 474 formed therein such that the dispensing valve 470 fits within the compartment 200 and may be secured by a wire clip 472.

The wire clip 472 passes through the clip recess 474 and into the attachment recess 175 of the mounting block 100. Alternatively, screws, bolts, or other conventional types of fastening means may be used. The dispensing valve 470 also may snap into place within the compartment 200 and be secured via a spring-loaded tab or by a similar type of construction. Further, the dispensing valve 470 may be held by an integral retainer that is molded within the compartment 200 or by a similar type WO 01/72628 PCT/US01/40346 9 of construction. Likewise, the syrup-intake line 505 and the water-intake line 515 are positioned within the syrup conduit support 260 and the water conduit support 270 respectively.

In order to provide for the quick insertion or removal of the dispensing valve 470, the syrup-intake line 505 and the water-intake line 515 are both provided with a quick disconnect fitting 550. The quick disconnect fittings 550 are shown in Figs. 8 through 11. As is shown in Fig. 8, a water quick disconnect fitting 560 is used on the water-intake line 515 and a syrup quick disconnect fitting 570 is connected to the syrup-intake line 505 to control the flow of fluid therethrough.

As is shown in Fig. 9, the quick disconnect fittings 550 include an outer housing 580 surrounding a retractable plunger 590 for movement therein.

The plunger 590 has an arm 600 connected thereto. The arm 600 is positioned within a channel 610 of the outer housing 580. The plunger 590 is maneuvered by adjusting the position of the arm 600 within the channel 610. One end of the quick disconnect fitting 550 is attached to the syrup-intake line 505 or the water-intake line 515 while the other end of the quick disconnect fitting 550 is connected to the ports 500, 510 of the dispensing valve 470. The arm 600 may be maneuvered to open or close the plunger 590 so as to permit or stop fluid flow therethrough. As is shown in Fig. 10, the quick release mechanism 550 is held in place by a frame 620 secured to the syrup conduit support 260 or the water conduit support 270.

Significantly, the incoming lines 505, 515 can be retained without fittings or fastening means.

As is shown in Fig. 11, the dispensing valve 470 simply snaps into the quick disconnect fittings 550. The arm 600 is maneuvered into the "open" position so as to permit fluid flow therethrough. Likewise, when in the "closed" position, the plunger 590 blocks the syrup in-take line 505 or the water-intake line 515 such that the dispensing valve 470 may be easily installed or removed via the ports 500, 510. The quick disconnect fittings 550 thus provide the user of the beverage dispenser 360 with the ability to install or replace components quickly and easily without the use of a separate mounting block. Specifically, the use of the quick disconnect fittings 550 allows the user to remove, for example, one dispensing valve 470, while still operating the remaining dispensing valves 470. It is understood that although the quick disconnect fitting 550 has been discussed in terms of the dispensing valve 470, a similar arrangement could be used with WO 01/72628 PCT/US01/40346 respect to the syrup pumps 400, the water pump 430, or any other component of the beverage dispenser 360 as a whole.

The use of the modular mounting block 100 thus provides for fast and efficient construction of the beverage dispenser 360 and also for fast and efficient replacement of components within the beverage dispenser 360. By way of example, the use of the modular mounting block 100 herein eliminates the use of about one-third of the parts as compared to a conventional beverage dispenser. The elimination of the screws, retainers, and brackets generally used to attach the pumps and the line fittings is in itself a significant reduction in parts and time. This overall simplification of the design of the beverage dispenser 360 may reduce the time it takes to construct the beverage dispenser 360 by about one-third or about thirty-three percent Fig. 12 shows an alternative embodiment of the mounting block 100. In this embodiment, the pump compartments 120 are located adjacent to each other. In other words, the pump compartments 710, 720, 730, 740 are all located on one side of the mounting block 100. The syrup pumps 400 are positioned within each of the pump compartments 710, 720, 730, 740. The syrup pumps 400 are connected by a common gas manifold 750. Similar to the manifold 425 described above, the manifold 750 provides carbon dioxide to each of the syrup pumps 400. The manifold 750 also retains the pumps 400 within their respective compartments 710, 720, 730, 740. The manifold 750 may be retained in place via a single screw 760 or by similar attachment means. The mounting block 100 may have a saddle 770 formed therein so as to accommodate manifold 750 and the gas lines 780 leading to the manifold 750.

The use of the common manifold 750 and the single screw 760 in this embodiment thus increases even further the simplicity of construction and installation offered by the present invention. The syrup pumps 400 thus may be installed quickly and easily with a minimum of parts. Likewise, the removal and replacement of the syrup pumps 400, if needed, is likewise simplified.

Claims (27)

1. A modular beverage dispenser, including: a water bath; a mounting block fixedly attached thereto; said mounting block including a plurality of pump compartments and a plurality of dispensing valve compartments; a water pump positioned within a first one of said plurality of pump compartments; a syrup pump positioned within a second one of said plurality of pump compartments; and a dispensing valve positioned within one of said plurality of dispensing valve compartments.

2. The modular beverage dispenser of claim 1, wherein said water bath includes a thermoplastic material.

3. The modular beverage dispenser of claim I or claim 2, wherein said mounting block includes a thermoplastic material.

4. The modular beverage dispenser of any one of the preceding claims, wherein said water bath includes a drip path molded therein.

The modular beverage dispenser of claim 4, wherein said mounting block includes an overflow conduit in alignment with said drip path of said water bath.

6. The modular beverage dispenser of any one of the preceding claims, wherein said first pump compartment includes a water pump compartment.

7. The modular beverage dispenser of any one of the preceding claims, wherein said second pump compartment includes a syrup pump compartment.

8. The modular beverage dispenser of any one of the preceding claims, wherein said water pump is retained within said first pump compartment by a screw.

9. The modular beverage dispenser of any one of the preceding claims, wherein said syrup pump is retained within said second pump compartment by a screw.

W:mnar/ODELETE200125t7321 doc 12 The modular beverage dispenser of any one of the preceding claims, wherein said dispensing valve is retained within said dispensing valve compartment by a clip.

11. The modular beverage dispenser of any one of the preceding claims, further including a plurality of fluid lines connected to said water pump, said syrup pump, and said dispensing valve.

12. The modular beverage dispenser of claim 11, wherein several of said plurality of fluid lines each include a quick disconnect fitting.

13. The modular beverage dispenser of claim 12, wherein said quick disconnect fitting includes a retractable plunger positioned within a housing.

14. The modular beverage dispenser of claim 13, wherein said retractable plunger includes an arm so as to position said retractable plunger within said housing.

The modular beverage dispenser of claim 12, wherein said dispensing valve snaps into said quick disconnect fitting.

16. A modular beverage dispenser including: a water bath; a mounting block fixedly attached thereto; said mounting block including a single piece thermoplastic; said mounting block further including a plurality of compartments; and a dispensing valve positioned within one of said plurality of compartments.

17. The modular beverage dispenser of claim 16, said mounting block further including a water pump positioned within a second one of said plurality of compartments.

18. The modular beverage dispenser of claim 16, said mounting block further including a syrup pump positioned within a second one of said plurality of compartments.

19. A method for constructing a beverage dispenser including the steps of: securing a mounting block onto a water bath, said mounting block including a plurality of pump compartments and a plurality of dispensing valve compartments; placing a water pump within a first one of said plurality of pump compartments; placing a syrup pump within a second one of said plurality of pump compartments; and W:VnariNODELETE2001251732i.doc 13 placing a dispensing valve within one of said plurality of dispensing valve compartments.

The method of claim 19, further including the step of attaching fluid lines to said water pump, said syrup pump, and said dispensing valve.

21. The method of claim 20, wherein said fluid lines include a quick disconnect fitting and further including the step of snapping said dispensing valve into said quick disconnect fitting.

22. The method of any one of claims 19 to 21, further including the steps of retaining said water pump, said syrup pump, and said dispensing valve within said mounting block by a single fastener.

23. The method of any one of claims 19 to 22, further including the steps of placing a plurality of dispensing valves in said beverage dispenser and operating said dispensing valves.

24. The method of claim 23, further including the step of removing one of said plurality of dispensing valves from said beverage dispenser while continuing to operate the remaining plurality of dispensing valves.

A modular beverage dispenser substantially as herein before described with reference to the illustrations.

26. A method for constructing a beverage dispenser substantially as herein before described with reference to the illustrations. DATED:

27 November 2003 PHILLIPS ORMONDE FITZPATRICK Attorneys for: The Coca-Cola Company W:maryNODELETEM201Z17321,doc